/* * Copyright (c) 2017-present, Facebook, Inc. * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ #include #include #include void out_of_bound_Bad(std::vector v) { unsigned int n = v.size(); v[n] = 1; } void constructor_Good() { std::vector v(1); v[0] = 2; } void push_back_Good() { std::vector v; v.push_back(1); v[0] = 2; } void push_back_Bad() { std::vector v; v.push_back(1); v[1] = 2; } void reserve_Good() { std::vector v; v.reserve(42); v.push_back(1); v[0] = 2; } void reserve_Bad() { std::vector v; v.reserve(42); v[0] = 2; } void safe_access(std::vector v) { if (v.size() >= 10) { v[9] = 1; } } void call_safe_access_Good() { std::vector v(5, 0); safe_access(v); } void safe_access2(std::vector v) { if (v.empty()) { return; } unsigned int a[v.size()]; for (unsigned int i = 0; i < v.size(); i++) { a[i] = 0; } } void call_safe_access2_Good() { std::vector v; safe_access2(v); } struct Int_no_copy { Int_no_copy(Int_no_copy&) = delete; Int_no_copy(const Int_no_copy&) = delete; Int_no_copy(volatile Int_no_copy&) = delete; Int_no_copy(const volatile Int_no_copy&) = delete; Int_no_copy(int i) : _i(i) {} int get_int() { return _i; } private: int _i; }; void just_test_model_FP(void) { std::vector v; v.push_back(Int_no_copy(0)); v.erase(v.cbegin()); v.erase(v.cbegin(), v.cend()); const Int_no_copy ci(1); const Int_no_copy& cr = ci; v.insert(v.cbegin(), cr); v.insert(v.cbegin(), std::move(Int_no_copy(2))); v.emplace(v.cbegin(), 3); v.insert(v.cbegin(), 42, cr); int x = v[0].get_int(); std::list l; std::vector v2(l.begin(), l.end()); v2.insert(v2.cbegin(), l.begin(), l.end()); v2.assign(l.begin(), l.end()); const std::vector v3{1, 2, 3}; int y = v3[0]; int z = v3.at(1); } void safe_access3_Good() { std::vector v; if (!v.empty()) { v[0] = 1; } } void safe_access4(std::vector v) { if (!v.empty()) { v[0] = 1; } } void call_safe_access4_Good() { std::vector v; safe_access4(v); } void safe_access5(std::vector v) { if (v.empty()) { } else { v[0] = 1; } } void call_safe_access5_Good() { std::vector v; safe_access5(v); } void safe_access6(std::vector v) { std::vector v2(2); v2[v.empty()]; } void call_safe_access6_Good() { std::vector v; safe_access6(v); } void data_Good() { std::vector v(5); int* p = v.data(); p[4] = 1; } void data_Bad() { std::vector v(5); int* p = v.data(); p[4] = 10; p[v[4]] = 1; } void assert_Good() { std::vector v; for (int i = 0; i < 5; i++) { v.push_back(1); } assert(v.size() == 5); v[4] = 1; } void assert_Good_2(int x) { std::vector v; for (int i = 0; i < 5; i++) { v.push_back(1); } assert(((v.size() == 5) ? 1 : 0) ? 1 : 0); v[4] = 1; } void assert_Bad() { std::vector v; for (int i = 0; i < 5; i++) { v.push_back(1); } assert(v.size() == 5); v[6] = 1; } class CharVector { public: CharVector(char* init) : a(init) {} char& operator[](int idx) { return a[idx]; } private: char* a; }; void access_in_sixth(int count, CharVector v) { assert(count >= 0); assert(count < 5); v[count + 1] = '0'; } void access_minus_one(int count, CharVector v) { assert(count >= 0); v[count - 1] = '0'; } void precise_subst_Good() { char a[10]; CharVector v(a); access_in_sixth(0, v); } void precise_subst_Good_FP() { char a[10]; CharVector v(a); access_minus_one(1, v); } void precise_subst_Bad() { char a[10]; CharVector v(a); access_minus_one(0, v); }